The insertion of Polybia-MP1 peptide into phospholipid monolayers is regulated by its anionic nature and phase state.

[1]  E. Prenner,et al.  Applications of Brewster angle microscopy from biological materials to biological systems. , 2017, Biochimica et biophysica acta. Biomembranes.

[2]  M. L. Fanani,et al.  Crossregulation between the insertion of Hexadecylphosphocholine (miltefosine) into lipid membranes and their rheology and lateral structure. , 2017, Biochimica et biophysica acta. Biomembranes.

[3]  E. Ambroggio,et al.  Phosphatidylserine lipids and membrane order precisely regulate the activity of Polybia-MP1 peptide. , 2017, Biochimica et biophysica acta. Biomembranes.

[4]  N. Wilke,et al.  Sizes of lipid domains: What do we know from artificial lipid membranes? What are the possible shared features with membrane rafts in cells? , 2017, Biochimica et biophysica acta. Biomembranes.

[5]  A. Malfatti-Gasperini,et al.  Refractive index and thickness determination in Langmuir monolayers of myelin lipids. , 2017, Biochimica et biophysica acta. Biomembranes.

[6]  C. Salesse,et al.  How to gather useful and valuable information from protein binding measurements using Langmuir lipid monolayers. , 2017, Advances in colloid and interface science.

[7]  N. Wilke,et al.  The interfacial properties of the peptide Polybia-MP1 and its interaction with DPPC are modulated by lateral electrostatic attractions. , 2016, Biochimica et biophysica acta.

[8]  N. Wilke,et al.  The Rheological Properties of Lipid Monolayers Modulate the Incorporation of l-Ascorbic Acid Alkyl Esters. , 2016, Langmuir : the ACS journal of surfaces and colloids.

[9]  Raquel V Vico,et al.  Alkyl esters of L-ascorbic acid: Stability, surface behaviour and interaction with phospholipid monolayers. , 2015, Journal of colloid and interface science.

[10]  O. N. Oliveira,et al.  Interactions of bioactive molecules & nanomaterials with Langmuir monolayers as cell membrane models , 2015 .

[11]  M. Palma,et al.  PE and PS Lipids Synergistically Enhance Membrane Poration by a Peptide with Anticancer Properties , 2015, Biophysical journal.

[12]  B. Bechinger The SMART model: Soft Membranes Adapt and Respond, also Transiently, in the presence of antimicrobial peptides , 2015, Journal of peptide science : an official publication of the European Peptide Society.

[13]  B. Maggio,et al.  Sticholysin I-membrane interaction: an interplay between the presence of sphingomyelin and membrane fluidity. , 2014, Biochimica et biophysica acta.

[14]  N. Wilke,et al.  Phase coexistence in films composed of DLPC and DPPC: a comparison between different model membrane systems. , 2014, Biochimica et biophysica acta.

[15]  T. Kuhl,et al.  Thickness and refractive index of DPPC and DPPE monolayers by multiple-beam interferometry , 2014, Analytical and Bioanalytical Chemistry.

[16]  L. Benedini,et al.  Ascorbyl palmitate interaction with phospholipid monolayers: electrostatic and rheological preponderancy. , 2013, Biochimica et biophysica acta.

[17]  C. Salesse,et al.  Influence of the physical state of phospholipid monolayers on protein binding. , 2012, Langmuir : the ACS journal of surfaces and colloids.

[18]  R. Curi,et al.  Influence of the bilayer composition on the binding and membrane disrupting effect of Polybia-MP1, an antimicrobial mastoparan peptide with leukemic T-lymphocyte cell selectivity. , 2012, Biochemistry.

[19]  M. Asslaber,et al.  In search of a novel target — Phosphatidylserine exposed by non-apoptotic tumor cells and metastases of malignancies with poor treatment efficacy , 2011, Biochimica et biophysica acta.

[20]  N. Wilke,et al.  Phase diagram of mixed monolayers of stearic acid and dimyristoylphosphatidylcholine. Effect of the acid ionization. , 2011, Chemistry and physics of lipids.

[21]  H. Allen,et al.  Reorganization and caging of DPPC, DPPE, DPPG, and DPPS monolayers caused by dimethylsulfoxide observed using Brewster angle microscopy. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[22]  J. Jara,et al.  The action of sphingomyelinase in lipid monolayers as revealed by microscopic image analysis. , 2010, Biochimica et biophysica acta.

[23]  B. Desbat,et al.  Determination of molecular groups involved in the interaction of annexin A5 with lipid membrane models at the air-water interface. , 2010, Biochimica et biophysica acta.

[24]  D. Vollhardt,et al.  Characterisation of phase transition in adsorbed monolayers at the air/water interface. , 2010, Advances in colloid and interface science.

[25]  J. Hofkens,et al.  Influence of lipid heterogeneity and phase behavior on phospholipase A2 action at the single molecule level. , 2009, Biophysical journal.

[26]  Jing-jing Song,et al.  Novel mode of action of polybia-MPI, a novel antimicrobial peptide, in multi-drug resistant leukemic cells. , 2009, Cancer letters.

[27]  Kairong Wang,et al.  Antitumor effects, cell selectivity and structure–activity relationship of a novel antimicrobial peptide polybia-MPI , 2008, Peptides.

[28]  T. Heimburg,et al.  Thermal Biophysics of Membranes , 2007 .

[29]  R. Brasseur,et al.  Molecular organization of surfactin-phospholipid monolayers: effect of phospholipid chain length and polar head. , 2007, Biochimica et biophysica acta.

[30]  E. Gulbins,et al.  Biological aspects of ceramide-enriched membrane domains. , 2007, Progress in lipid research.

[31]  M. Lösche,et al.  Interaction of the neurotransmitter, neuropeptide Y, with phospholipid membranes: infrared spectroscopic characterization at the air/water interface. , 2006, The journal of physical chemistry. B.

[32]  M. Palma,et al.  Structural and functional characterization of two novel peptide toxins isolated from the venom of the social wasp Polybia paulista , 2005, Peptides.

[33]  Y. Shimada,et al.  Distinct localization of lipid rafts and externalized phosphatidylserine at the surface of apoptotic cells. , 2005, Biochemical and biophysical research communications.

[34]  J. Zimmerberg,et al.  Line tension and interaction energies of membrane rafts calculated from lipid splay and tilt. , 2005, Biophysical journal.

[35]  M. Edidin The state of lipid rafts: from model membranes to cells. , 2003, Annual review of biophysics and biomolecular structure.

[36]  R. Maget-Dana The monolayer technique: a potent tool for studying the interfacial properties of antimicrobial and membrane-lytic peptides and their interactions with lipid membranes. , 1999, Biochimica et biophysica acta.

[37]  K. Birdi Self-Assembly Monolayer Structures of Lipids and Macromolecules at Interfaces , 1999 .

[38]  H. Brockman Lipid monolayers: why use half a membrane to characterize protein-membrane interactions? , 1999, Current opinion in structural biology.

[39]  V. Fadok,et al.  The role of phosphatidylserine in recognition of apoptotic cells by phagocytes , 1998, Cell Death and Differentiation.

[40]  R. Epand,et al.  Amphipathic peptide affects the lateral domain organization of lipid bilayers. , 1997, Biochimica et biophysica acta.

[41]  D. Marsh Lateral pressure in membranes. , 1996, Biochimica et biophysica acta.

[42]  M. Ptak,et al.  Interactions of surfactin with membrane models. , 1995, Biophysical journal.

[43]  V. Fadok,et al.  Exposure of phosphatidylserine on the surface of apoptotic lymphocytes triggers specific recognition and removal by macrophages. , 1992, Journal of immunology.

[44]  C. Bucana,et al.  Elevated expression of phosphatidylserine in the outer membrane leaflet of human tumor cells and recognition by activated human blood monocytes. , 1991, Cancer research.

[45]  J. Teissié,et al.  Ionization of phospholipids and phospholipid-supported interfacial lateral diffusion of protons in membrane model systems. , 1990, Biochimica et biophysica acta.

[46]  W. Hubbell,et al.  The intrinsic pKa values for phosphatidylserine and phosphatidylethanolamine in phosphatidylcholine host bilayers. , 1986, Biophysical journal.

[47]  R. Verger,et al.  Penetration of phospholipid monolayers by cardiotoxins. , 1981, Biochemistry.

[48]  C. Tanford Micelle shape and size , 1972 .

[49]  Jerome Daen Insoluble monolayers at liquid-gas interfaces , 1966 .

[50]  Katja Bachmeier Insoluble Monolayers At Liquid Gas Interfaces , 2016 .

[51]  N. Wilke Lipid Monolayers at the Air–Water Interface: A Tool for Understanding Electrostatic Interactions and Rheology in Biomembranes , 2014 .

[52]  P. Devaux,et al.  Protein involvement in transmembrane lipid asymmetry. , 1992, Annual review of biophysics and biomolecular structure.